KR101960770B1 - Rope tension control equipment for elevator - Google Patents

Abstract

The present invention relates to a rope tension equalization apparatus for an elevator, which comprises an upper body 21 having a plurality of through holes 23 arranged therein, A lower body 22 in which a through hole 24 is formed at a position corresponding to a plurality of through holes 23 of the through hole 24 and the fluid passage 25 is formed to communicate with the through hole 24, An upper moving rod 40 which is inserted into the hole 24 and into which the connecting member 60 to which the rope 1 is connected is inserted and fixed and the lower moving rod 40 is disposed apart from the lower end of the upper moving rod 40, And a resilient means 30 provided between the upper movable rod 40 and the lower movable rod 45. The upper movable rod 40 and the lower movable rod 45 are connected to each other by elastic members 30, Through holes 24 communicating with each other through the fluid path 25 formed on the upper surface of the upper body 21 and the lower surface of the upper body 21 and the upper surface of the lower body 22, The oil in the space is filled with oil and the oil in each of the through holes 24 is moved to the other through hole 24 through the fluid path 25 in accordance with the change of the tensile force against the wire rope, It is possible to improve the noise reduction and the safety and to sufficiently support the upper and lower bodies without increasing the size of the upper body and the lower body by the elastic means between the upper and lower moving rods, It is possible to constitute a compact structure.

Description

Technical Field [0001] The present invention relates to a rope tension control apparatus for elevator,

The present invention relates to a rope tension equalizing apparatus for an elevator that uniformly adjusts a tension of a plurality of ropes when the elevator is moved up and down. More specifically, the present invention relates to a rope tension equalizing apparatus for elevating a rope, To improve the tension of each of a plurality of ropes so as to maintain a constant tension.

Generally, the operation of the elevator causes the elevator to be reciprocated by the pulling action of the plurality of wire ropes suspended in the elevator.

In the case of a rope-type elevator, a hydraulic elevator or the like in which a plurality of wire ropes support an elevator, when there is a relative difference in length between the wire ropes, the load on each wire rope is not equal. The difference in the length of the wire rope generally arises from the fact that it is difficult to precisely match the relative length between the wire ropes during initial installation or replacement work due to bending and hardness due to the characteristics of the wire rope, It is also caused by the relative length change between the wire ropes over time due to the difference in the expansion ratio between the ropes, the inconsistency of the material of the sheave or the wire rope, and the positional advantage of the car. As a result, the wire rope having a relatively short length as compared with other wire ropes is excessively tensioned, causing the wire to abruptly wear, deform or fracture, causing early wear of the sheave groove through which the wire rope passes It is necessary to frequently replace the wire rope and the sheave. In addition, due to the imbalance of load between the wire ropes, vibration is caused in the longitudinal and transverse directions during driving, adversely affecting the service life of other parts, do

If the unevenness of the tension between the wire ropes continues, the load burden of the other wire ropes that are relatively elongated increases, and as a result, the wire ropes are periodically managed. Even if the inspection and management is carried out, the variation in tension occurs in real time depending on the temperature of the elevator installation site and the number of elevator operations, so the unevenness of the tension continues until the next inspection.

In order to solve the tension unevenness between the wire ropes pulling the elevator in this way, it is necessary to adjust the tension by varying the tension of each independent wire rope according to the elongation condition of each wire rope. However, It is very difficult.

As a solution to this problem, Japanese Unexamined Patent Publication No. 5-39181 (published on June 29, 1993) discloses a rope of an elevator through a socket member, a connecting member, a piston rod, a waveguide plunger in a hydraulic cylinder, And the hydraulic cylinder is bolted to the plate and the pipe connects the hydraulic cylinders so that the tension of the plurality of ropes can be uniformly controlled during the operation of the elevator.

However, the apparatus of the Japanese Patent is complicated in the structure of a hydraulic cylinder constituted by a separate block for each rope, a pipe for communicating the fluid between the hydraulic cylinders, a valve installed in the middle of the pipe in order to block the flow of the fluid, Which requires more time and labor, and also requires more time and labor for installation due to the hydraulic cylinder composed of separate blocks.

On the other hand, in Korean Patent No. 10-1023580 (registered on March 11, 2011), a main body having a receiving space formed therein, a tension adjusting means connected to the elevator wire ropes and provided in the main body, And a first to a fourth guide roller rotatably coupled to the main body so that the elevator wire rope connected to the tension adjusting means is circumscribed. The elevator wire rope tension automatic equalization Device is disclosed.

However, the tension equalizing apparatus of the above-mentioned Korean patent also has a complicated structure, and it is required to improve the structure of automatically controlling the tension of the wire rope pulling the elevator with a more simple structure.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-described problems in the prior art by providing a method of mounting a plurality of rods inside a fluid path, The present invention is to provide a rope tension equalization apparatus for an elevator, which can move the moving rod vertically up and down according to the tension of the rope tensioner to maintain the equilibrium of force,

In order to achieve the above object, according to the present invention, there is provided a rope tension equalization apparatus for an elevator, wherein the rope tension equalization apparatus for an elevator uniformly adjusts the tension of the rope when the elevator is moved up and down,

An upper body having a plurality of through holes arranged therein,

A lower body coupled to the upper body by a coupling member and having a space portion formed at a position corresponding to a plurality of through holes of the upper body and having a fluid passage formed to communicate with the space portion,

A lower moving rod disposed at a lower end of the upper moving rod and elastically supported by elastic means at a lower end thereof,

Between the upper moving rod and the lower moving rod, elastic means provided to elastically limit movement of the upper moving rod relative to the lower moving rod,

The oil is filled in the space formed by the upper surface of the jaw of the upper moving rod, the lower surface of the upper body, and the upper portion of the through hole communicated with each other through the fluid path formed on the lower surface of the lower body, So that the oil in the through hole is moved to the other through hole through the fluid path, and the tension acting on each wire rope is regulated constantly.

The upper moving rod is disposed so as to be vertically movable up and down in a vertical hole of the upper body, and has a through hole. The upper moving rod has a lower diameter portion and a lower diameter portion.

The lower moving rod is disposed in a space portion of the lower body so as to be vertically movable up and down with respect to a lower end portion of the upper moving rod. The lower moving rod is formed with a through hole. The upper moving rod has a relatively small diameter upper portion and a large diameter lower portion, .

The elastic means comprises at least a pair of opposed upper and lower cup members and is configured to provide an elastic force to limit downward movement by the oil pressure applied to the upper moving rod.

Wherein the upper cup member has a through hole formed at its center and has a diameter smaller than the lower portion of the upper cup member and is curved in a concave dish shape and the lower portion is disposed in an upside down position, The upper portion of the upper cup member is inverted to have the same shape and the upper portion of the upper cup member is formed larger in diameter and arranged to be in contact with the lower portion of the relatively larger diameter of the upper cup member.

The elastic means is provided between the lower end of the upper moving rod and the jaw of the lower moving rod, the lower part of the upper moving rod has an enlarged inner diameter, So that the upper moving rod and the lower moving rod are guided when moving up and down in partial surface contact with each other.

As described above, the present invention has a rope tension equalizing device capable of adjusting the tension of a rope by using a fluid, so that the rope force can be uniformly maintained even during a large variable of the rope during an elevator operation, The tension of the rope can be adjusted by using the fluid without using the apparatus requiring the noise, and furthermore, the noise can not be generated and the failure can be prevented from occurring, so that the elevator operation cost can be saved as much as possible, By providing the elastic means between the lower moving rods, it is possible to sufficiently support the upper body and the lower body without increasing the size of the upper body and the lower body, so that the wire rope tension adjusting device can be compactly constructed.

1 is a perspective view of a rope tension equalization apparatus according to the present invention.
2 is an exploded perspective view showing a rope tension equalization apparatus according to the present invention.
3 is a longitudinal sectional view showing a rope tension equalization apparatus according to the present invention.
4 is a reference view showing a flow chart of a fluid according to the present invention.
5 is a longitudinal sectional view showing the operation of the rope tension equalization apparatus according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

1 to 4, the rope tension equalization apparatus 10 of the present invention is a rope tension equalization apparatus in which a plurality of through holes 23 are arranged in an upper body (not shown) so as to evenly control the tension of the rope 1 when the elevator is moved up and down And a through hole 24 is formed at a position corresponding to the plurality of through holes 23 of the upper body 21 by the engagement of the upper body 21 and the engaging member 50, A lower member 22 having a fluid passage 25 communicating with the hole 24 and a connecting member 60 inserted into the through hole 24 and connected to the rope 1, And includes a top moving rod (40) and a bottom moving rod (45). Reference numeral 26, which is not shown in the drawing, is an opening through which the fluid passage 25 and the through hole 24 are communicated.

The upper moving rod 40 and the lower moving rod 45 are spaced apart from each other and include elastic means 30 elastically supporting the up and down movement of the upper moving rod therebetween.

The upper moving rod 40 is disposed so as to vertically move up and down in the through hole 23 of the upper body 21 and has a through hole 43. The lower moving rod 40 has a relatively large diameter lower portion 41 and a diameter And a small upper portion 42 and a jaw 44 formed therebetween. Reference numeral 55, which is not shown in the drawings, serves as a packing to prevent oil leakage between the through hole and the upper moving rod.

The lower moving rod 45 is vertically movable up and down with respect to the lower end of the upper moving rod 40 in the through hole 24 of the lower body 22 and a through hole 43 is formed A lower portion 46 having a relatively small diameter, a lower portion 48 having a larger diameter, and a jaw 47 formed therebetween.

Through holes 24 communicating with each other through the fluid path 25 formed on the upper surface of the jaw 47 of the upper moving rod 40 and the lower surface of the upper body 21 and the upper surface of the lower body 22 The through holes 24 at positions corresponding to the plurality of through holes 23 are filled with fluid in the fluid path 25 at both sides of the fluid path 25 as shown in FIGS. The oil in each of the through holes 24 flows through the fluid path 25 due to the pressure change caused by the upward and downward movement of the connecting member 60 coupled to the lower end of the wire rope in accordance with the change in the tensile force with respect to the wire rope, It is possible to move quickly to other through holes 24 so that the tension acting on each wire rope by the movement of the upper and lower moving rods disposed in each of the through holes and the elastic deformation of the elastic means 30 is constant It is quickly regulated.

The lower portion 41 of the upper moving rod has an enlarged inner diameter and an upper portion 46 having a reduced diameter of the lower moving rod is inserted in the inner space thereof so that the upper moving rod and the lower moving rod are in partial surface contact with each other And the elastic means 30 is provided between the lower end of the lower portion 41 of the upper moving rod and the jaw 47 of the lower moving rod 45.

The elastic means (30) comprises an upper cup member (31) having a through hole (33) formed at its center and having an upper diameter smaller than that of the lower portion and being curved in a concave dish shape and disposed in an inverted manner, And the upper portion of the lower cup member 32 has a larger diameter than the lower portion of the lower cup member 32. The upper portion of the lower cup member 32 has an enlarged diameter, When the vertical load is applied to the upper and lower cup members 31 and 32, the upper and lower cup members are resiliently deformed so as to approach each other, thereby causing a buffering action.

Two pairs of the upper cup member and the lower cup member as the elastic means 30 are disposed in at least one pair of the upper cup member 31 and the lower cup member 32, 45 of the upper movable rod 40 in a resilient manner.

The lower end of the connecting member 60 to which the wire rope 1 is connected passes through the upper body 21 and the upper moving rod 40 and the through hole 43 of the lower moving rod 45, And an elastic member 70 is provided between the bottom surface of the lower body 22 and the fixing portion 61 to buffer the tension of the wire rope 1.

When the upper movable rod 40 is lowered by a load greater than a preset elastic force by the elastic means 30, the lower movable rod 45 is moved from the lower movable rod 40 And the lower moving rod 45 is elastically supported by an elastic means 70 such as a coil spring.

Thereby, since the resilient means 30 is disposed between the upper moving rod and the lower moving rod in the case where the moving rod is disposed in the through hole of the upper body and the lower body in the form of a cylinder, the displacement of the moving rod can be further reduced Thus, even if the load of the elevator is increased, it is possible to provide a sufficient buffering force without increasing the size of the support structure of the wire rope, that is, the size of the upper body and the lower body, and the supporting structure of the wire rope can be formed more compactly.

As shown in FIG. 5, for example, when the length of the intermediate wire rope is increased and the wire rope on the right side in the drawing is stretched to a length smaller than that of the intermediate wire rope, the tensile force acting on the leftmost wire rope in the drawing is increased The upper moving rod 40a is moved upward in the figure so that the oil pressure in the through hole 24 where the lower end of the connecting port 60a is disposed increases so that the oil in the through hole 24 flows into the fluid flow path 25 through the through holes 24 of the connecting rods 60b, c connected to the wire ropes of which the length is increased. At this time, the through holes 24 So that in each of the through holes 24 the upper moving rod 40b is supported by the elastic means 30b while moving to the greatest displacement downward as shown in the figure Lower movable rod The uppermost moving rod 40c is moved downward by the oil pressure acting on the upper jaw 44c, but the displacement of the upper moving rod 40c by the elastic means 30c is smaller than that of the upper moving rod 40c So that the lower moving rod 40c may not be displaced downward.

 As described above, when the length of the wire rope on one side increases, oil flows into the through hole 24 and the lower end of the upper moving rod 40 moves downward when the upper moving rod 40 moves downward, The lower displacement of the upper moving rod 40 is reduced while the upper and lower cup members 31 and 32 pairs as the elastic means 30 provided between the jaws 47 of the rod 45 are elastically compressed relative to each other This makes it possible to support the wire rope without increasing the height of the upper body 21 and the lower body 22 even if the elevator load is increased, and to control the tension applied thereto uniformly and uniformly.

According to the present invention, the fluid flows into the through holes (24) of the lower body according to the tension of the rope (1) so that the upper and lower moving rods (40, 45) There is an advantage in that breakage of the rope 1 caused by imbalance of different forces between each rope 1, uneven wear of the sheave, noise and the like can be prevented, By providing the elastic means 30 between the moving rods, it is possible to sufficiently support the upper body and the lower body without increasing the size thereof, thereby providing an advantage that the wire rope tension adjusting device can be compactly constructed .

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those of ordinary skill in the art that various changes and modifications may be made without departing from the scope of the present invention.

10: rope tension equalization device 20:
21: upper body 22: lower body
23: through hole 24: through hole
25: fluid pathway 26: fluid-
40: upper moving rod 45: lower moving rod
55: packing 50: coupling member
60: connecting member 70: elastic member

Claims (5)

The upper body 21 is provided with a plurality of through holes 23 arranged so that the tension of the rope 1 can be adjusted uniformly when the elevator is moved up and down. A through hole 24 is formed at a position corresponding to a plurality of through holes 23 of the upper body 21 and a lower body 22 formed with a fluid passage 25 communicating with the through hole 24 An upper moving rod 40 which is inserted into the through hole 24 and into which the connecting member 60 to which the rope 1 is connected is inserted and fixed and a lower moving rod 40 which is disposed apart from the lower end of the upper moving rod 40, Between the upper moving rod 40 and the lower moving rod 45, a movement of the upper moving rod with respect to the lower moving rod is effected by a resilient means 70, (10), characterized in that the tensioning device (10) comprises an elastic means (30)
The upper moving rod 40 is disposed so as to vertically move up and down in the through hole 23 of the upper body 21 and has a through hole 43. The lower moving rod 40 has a relatively large diameter lower portion 41 and a diameter A small upper portion 42, a tuck 44 formed therebetween,
The upper surface of the jaw 44 of the upper moving rod 40 and the lower surface of the upper body 21 and the upper portion of the through hole 24 communicated with each other through the fluid moving path 25 formed on the upper surface of the lower body 22 The oil in the through holes 24 is moved to the other through holes 24 through the fluid path 25 in accordance with the change of the tensile force against the wire rope, The through holes 24 at positions corresponding to the plurality of through holes 23 are communicated with the fluid path 25 at both sides of the fluid path 25 so that the tension acting thereon is constantly and quickly adjusted,
The lower moving rod 45 is vertically movable up and down with respect to the lower end of the upper moving rod 40 in the through hole 24 of the lower body 22 and has a through hole 43 formed therein, A lower portion 46 having a smaller diameter, a lower portion 48 having a larger diameter, and a jaw 47 between the lower portion 48 and the lower portion 48,
The elastic means 30 is provided between the lower end of the lower portion 41 of the upper moving rod 40 and the lower portion of the lower moving rod 45 and the lower portion 41 of the upper moving rod is enlarged And an upper portion (46) having an inner diameter and reduced in diameter of the lower moving rod is inserted in the inner space so that the upper moving rod and the lower moving rod are guided when the upper and lower moving rods are moved up and down in partial surface contact with each other. Tension equalization device. delete The method according to claim 1,
The elastic means 30 includes at least a pair of opposed upper and lower cup members 31 and 32 to provide an elastic force to limit downward movement by the oil pressure applied to the upper moving rod 40 Wherein the rope tension equalizing device is a rope tension equalizing device for an elevator. The method of claim 3,
The upper cup member 31 has a through hole 33 formed at the center thereof and is formed to be smaller in diameter than the lower portion of the upper cup member 31. The lower cup member 31 has a shape curved in a concave dish shape, The upper cup member 31 is inverted in the same shape as the upper cup member 31 and is formed to have a larger diameter at an upper portion thereof so as to be arranged in contact with a lower portion of a relatively larger diameter of the upper cup member 31 Rope tension equalizing device for elevator.














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